1084 lines
46 KiB
ReStructuredText
1084 lines
46 KiB
ReStructuredText
=============
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Logging HOWTO
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=============
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:Author: Vinay Sajip <vinay_sajip at red-dove dot com>
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.. _logging-basic-tutorial:
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.. currentmodule:: logging
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Basic Logging Tutorial
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----------------------
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Logging is a means of tracking events that happen when some software runs. The
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software's developer adds logging calls to their code to indicate that certain
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events have occurred. An event is described by a descriptive message which can
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optionally contain variable data (i.e. data that is potentially different for
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each occurrence of the event). Events also have an importance which the
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developer ascribes to the event; the importance can also be called the *level*
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or *severity*.
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When to use logging
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^^^^^^^^^^^^^^^^^^^
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Logging provides a set of convenience functions for simple logging usage. These
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are :func:`debug`, :func:`info`, :func:`warning`, :func:`error` and
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:func:`critical`. To determine when to use logging, see the table below, which
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states, for each of a set of common tasks, the best tool to use for it.
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+-------------------------------------+--------------------------------------+
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| Task you want to perform | The best tool for the task |
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+=====================================+======================================+
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| Display console output for ordinary | :func:`print` |
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| usage of a command line script or | |
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| program | |
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+-------------------------------------+--------------------------------------+
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| Report events that occur during | :func:`logging.info` (or |
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| normal operation of a program (e.g. | :func:`logging.debug` for very |
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| for status monitoring or fault | detailed output for diagnostic |
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| investigation) | purposes) |
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+-------------------------------------+--------------------------------------+
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| Issue a warning regarding a | :func:`warnings.warn` in library |
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| particular runtime event | code if the issue is avoidable and |
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| | the client application should be |
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| | modified to eliminate the warning |
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| | |
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| | :func:`logging.warning` if there is |
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| | nothing the client application can do|
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| | about the situation, but the event |
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| | should still be noted |
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+-------------------------------------+--------------------------------------+
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| Report an error regarding a | Raise an exception |
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| particular runtime event | |
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+-------------------------------------+--------------------------------------+
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| Report suppression of an error | :func:`logging.error`, |
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| without raising an exception (e.g. | :func:`logging.exception` or |
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| error handler in a long-running | :func:`logging.critical` as |
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| server process) | appropriate for the specific error |
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| | and application domain |
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+-------------------------------------+--------------------------------------+
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The logging functions are named after the level or severity of the events
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they are used to track. The standard levels and their applicability are
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described below (in increasing order of severity):
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.. tabularcolumns:: |l|L|
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+--------------+---------------------------------------------+
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| Level | When it's used |
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+==============+=============================================+
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| ``DEBUG`` | Detailed information, typically of interest |
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| | only when diagnosing problems. |
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+--------------+---------------------------------------------+
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| ``INFO`` | Confirmation that things are working as |
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| | expected. |
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+--------------+---------------------------------------------+
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| ``WARNING`` | An indication that something unexpected |
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| | happened, or indicative of some problem in |
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| | the near future (e.g. 'disk space low'). |
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| | The software is still working as expected. |
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+--------------+---------------------------------------------+
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| ``ERROR`` | Due to a more serious problem, the software |
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| | has not been able to perform some function. |
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+--------------+---------------------------------------------+
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| ``CRITICAL`` | A serious error, indicating that the program|
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| | itself may be unable to continue running. |
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+--------------+---------------------------------------------+
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The default level is ``WARNING``, which means that only events of this level
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and above will be tracked, unless the logging package is configured to do
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otherwise.
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Events that are tracked can be handled in different ways. The simplest way of
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handling tracked events is to print them to the console. Another common way
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is to write them to a disk file.
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.. _howto-minimal-example:
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A simple example
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^^^^^^^^^^^^^^^^
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A very simple example is::
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import logging
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logging.warning('Watch out!') # will print a message to the console
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logging.info('I told you so') # will not print anything
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If you type these lines into a script and run it, you'll see:
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.. code-block:: none
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WARNING:root:Watch out!
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printed out on the console. The ``INFO`` message doesn't appear because the
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default level is ``WARNING``. The printed message includes the indication of
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the level and the description of the event provided in the logging call, i.e.
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'Watch out!'. Don't worry about the 'root' part for now: it will be explained
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later. The actual output can be formatted quite flexibly if you need that;
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formatting options will also be explained later.
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Logging to a file
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^^^^^^^^^^^^^^^^^
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A very common situation is that of recording logging events in a file, so let's
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look at that next. Be sure to try the following in a newly-started Python
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interpreter, and don't just continue from the session described above::
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import logging
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logging.basicConfig(filename='example.log',level=logging.DEBUG)
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logging.debug('This message should go to the log file')
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logging.info('So should this')
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logging.warning('And this, too')
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And now if we open the file and look at what we have, we should find the log
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messages::
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DEBUG:root:This message should go to the log file
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INFO:root:So should this
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WARNING:root:And this, too
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This example also shows how you can set the logging level which acts as the
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threshold for tracking. In this case, because we set the threshold to
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``DEBUG``, all of the messages were printed.
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If you want to set the logging level from a command-line option such as::
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--log=INFO
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and you have the value of the parameter passed for ``--log`` in some variable
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*loglevel*, you can use::
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getattr(logging, loglevel.upper())
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to get the value which you'll pass to :func:`basicConfig` via the *level*
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argument. You may want to error check any user input value, perhaps as in the
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following example::
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# assuming loglevel is bound to the string value obtained from the
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# command line argument. Convert to upper case to allow the user to
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# specify --log=DEBUG or --log=debug
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numeric_level = getattr(logging, loglevel.upper(), None)
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if not isinstance(numeric_level, int):
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raise ValueError('Invalid log level: %s' % loglevel)
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logging.basicConfig(level=numeric_level, ...)
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The call to :func:`basicConfig` should come *before* any calls to :func:`debug`,
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:func:`info` etc. As it's intended as a one-off simple configuration facility,
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only the first call will actually do anything: subsequent calls are effectively
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no-ops.
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If you run the above script several times, the messages from successive runs
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are appended to the file *example.log*. If you want each run to start afresh,
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not remembering the messages from earlier runs, you can specify the *filemode*
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argument, by changing the call in the above example to::
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logging.basicConfig(filename='example.log', filemode='w', level=logging.DEBUG)
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The output will be the same as before, but the log file is no longer appended
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to, so the messages from earlier runs are lost.
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Logging from multiple modules
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If your program consists of multiple modules, here's an example of how you
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could organize logging in it::
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# myapp.py
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import logging
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import mylib
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def main():
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logging.basicConfig(filename='myapp.log', level=logging.INFO)
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logging.info('Started')
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mylib.do_something()
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logging.info('Finished')
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if __name__ == '__main__':
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main()
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::
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# mylib.py
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import logging
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def do_something():
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logging.info('Doing something')
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If you run *myapp.py*, you should see this in *myapp.log*::
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INFO:root:Started
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INFO:root:Doing something
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INFO:root:Finished
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which is hopefully what you were expecting to see. You can generalize this to
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multiple modules, using the pattern in *mylib.py*. Note that for this simple
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usage pattern, you won't know, by looking in the log file, *where* in your
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application your messages came from, apart from looking at the event
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description. If you want to track the location of your messages, you'll need
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to refer to the documentation beyond the tutorial level -- see
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:ref:`logging-advanced-tutorial`.
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Logging variable data
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^^^^^^^^^^^^^^^^^^^^^
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To log variable data, use a format string for the event description message and
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append the variable data as arguments. For example::
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import logging
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logging.warning('%s before you %s', 'Look', 'leap!')
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will display:
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.. code-block:: none
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WARNING:root:Look before you leap!
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As you can see, merging of variable data into the event description message
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uses the old, %-style of string formatting. This is for backwards
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compatibility: the logging package pre-dates newer formatting options such as
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:meth:`str.format` and :class:`string.Template`. These newer formatting
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options *are* supported, but exploring them is outside the scope of this
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tutorial: see :ref:`formatting-styles` for more information.
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Changing the format of displayed messages
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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To change the format which is used to display messages, you need to
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specify the format you want to use::
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import logging
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logging.basicConfig(format='%(levelname)s:%(message)s', level=logging.DEBUG)
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logging.debug('This message should appear on the console')
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logging.info('So should this')
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logging.warning('And this, too')
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which would print::
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DEBUG:This message should appear on the console
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INFO:So should this
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WARNING:And this, too
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Notice that the 'root' which appeared in earlier examples has disappeared. For
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a full set of things that can appear in format strings, you can refer to the
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documentation for :ref:`logrecord-attributes`, but for simple usage, you just
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need the *levelname* (severity), *message* (event description, including
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variable data) and perhaps to display when the event occurred. This is
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described in the next section.
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Displaying the date/time in messages
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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To display the date and time of an event, you would place '%(asctime)s' in
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your format string::
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import logging
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logging.basicConfig(format='%(asctime)s %(message)s')
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logging.warning('is when this event was logged.')
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which should print something like this::
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2010-12-12 11:41:42,612 is when this event was logged.
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The default format for date/time display (shown above) is ISO8601. If you need
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more control over the formatting of the date/time, provide a *datefmt*
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argument to ``basicConfig``, as in this example::
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import logging
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logging.basicConfig(format='%(asctime)s %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p')
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logging.warning('is when this event was logged.')
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which would display something like this::
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12/12/2010 11:46:36 AM is when this event was logged.
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The format of the *datefmt* argument is the same as supported by
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:func:`time.strftime`.
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Next Steps
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^^^^^^^^^^
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That concludes the basic tutorial. It should be enough to get you up and
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running with logging. There's a lot more that the logging package offers, but
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to get the best out of it, you'll need to invest a little more of your time in
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reading the following sections. If you're ready for that, grab some of your
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favourite beverage and carry on.
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If your logging needs are simple, then use the above examples to incorporate
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logging into your own scripts, and if you run into problems or don't
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understand something, please post a question on the comp.lang.python Usenet
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group (available at https://groups.google.com/forum/#!forum/comp.lang.python) and you
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should receive help before too long.
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Still here? You can carry on reading the next few sections, which provide a
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slightly more advanced/in-depth tutorial than the basic one above. After that,
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you can take a look at the :ref:`logging-cookbook`.
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.. _logging-advanced-tutorial:
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Advanced Logging Tutorial
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-------------------------
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The logging library takes a modular approach and offers several categories
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of components: loggers, handlers, filters, and formatters.
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* Loggers expose the interface that application code directly uses.
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* Handlers send the log records (created by loggers) to the appropriate
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destination.
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* Filters provide a finer grained facility for determining which log records
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to output.
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* Formatters specify the layout of log records in the final output.
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Log event information is passed between loggers, handlers, filters and
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formatters in a :class:`LogRecord` instance.
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Logging is performed by calling methods on instances of the :class:`Logger`
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class (hereafter called :dfn:`loggers`). Each instance has a name, and they are
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conceptually arranged in a namespace hierarchy using dots (periods) as
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separators. For example, a logger named 'scan' is the parent of loggers
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'scan.text', 'scan.html' and 'scan.pdf'. Logger names can be anything you want,
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and indicate the area of an application in which a logged message originates.
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A good convention to use when naming loggers is to use a module-level logger,
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in each module which uses logging, named as follows::
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logger = logging.getLogger(__name__)
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This means that logger names track the package/module hierarchy, and it's
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intuitively obvious where events are logged just from the logger name.
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The root of the hierarchy of loggers is called the root logger. That's the
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logger used by the functions :func:`debug`, :func:`info`, :func:`warning`,
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:func:`error` and :func:`critical`, which just call the same-named method of
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the root logger. The functions and the methods have the same signatures. The
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root logger's name is printed as 'root' in the logged output.
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It is, of course, possible to log messages to different destinations. Support
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is included in the package for writing log messages to files, HTTP GET/POST
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locations, email via SMTP, generic sockets, queues, or OS-specific logging
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mechanisms such as syslog or the Windows NT event log. Destinations are served
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by :dfn:`handler` classes. You can create your own log destination class if
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you have special requirements not met by any of the built-in handler classes.
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By default, no destination is set for any logging messages. You can specify
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a destination (such as console or file) by using :func:`basicConfig` as in the
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tutorial examples. If you call the functions :func:`debug`, :func:`info`,
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:func:`warning`, :func:`error` and :func:`critical`, they will check to see
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if no destination is set; and if one is not set, they will set a destination
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of the console (``sys.stderr``) and a default format for the displayed
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message before delegating to the root logger to do the actual message output.
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The default format set by :func:`basicConfig` for messages is::
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severity:logger name:message
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You can change this by passing a format string to :func:`basicConfig` with the
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*format* keyword argument. For all options regarding how a format string is
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constructed, see :ref:`formatter-objects`.
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Logging Flow
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^^^^^^^^^^^^
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The flow of log event information in loggers and handlers is illustrated in the
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following diagram.
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.. image:: logging_flow.png
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Loggers
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^^^^^^^
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:class:`Logger` objects have a threefold job. First, they expose several
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methods to application code so that applications can log messages at runtime.
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Second, logger objects determine which log messages to act upon based upon
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severity (the default filtering facility) or filter objects. Third, logger
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objects pass along relevant log messages to all interested log handlers.
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The most widely used methods on logger objects fall into two categories:
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configuration and message sending.
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These are the most common configuration methods:
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* :meth:`Logger.setLevel` specifies the lowest-severity log message a logger
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will handle, where debug is the lowest built-in severity level and critical
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is the highest built-in severity. For example, if the severity level is
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INFO, the logger will handle only INFO, WARNING, ERROR, and CRITICAL messages
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and will ignore DEBUG messages.
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* :meth:`Logger.addHandler` and :meth:`Logger.removeHandler` add and remove
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handler objects from the logger object. Handlers are covered in more detail
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in :ref:`handler-basic`.
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* :meth:`Logger.addFilter` and :meth:`Logger.removeFilter` add and remove filter
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objects from the logger object. Filters are covered in more detail in
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:ref:`filter`.
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You don't need to always call these methods on every logger you create. See the
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last two paragraphs in this section.
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With the logger object configured, the following methods create log messages:
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* :meth:`Logger.debug`, :meth:`Logger.info`, :meth:`Logger.warning`,
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:meth:`Logger.error`, and :meth:`Logger.critical` all create log records with
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a message and a level that corresponds to their respective method names. The
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message is actually a format string, which may contain the standard string
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substitution syntax of ``%s``, ``%d``, ``%f``, and so on. The
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rest of their arguments is a list of objects that correspond with the
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substitution fields in the message. With regard to ``**kwargs``, the
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logging methods care only about a keyword of ``exc_info`` and use it to
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determine whether to log exception information.
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* :meth:`Logger.exception` creates a log message similar to
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:meth:`Logger.error`. The difference is that :meth:`Logger.exception` dumps a
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stack trace along with it. Call this method only from an exception handler.
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* :meth:`Logger.log` takes a log level as an explicit argument. This is a
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little more verbose for logging messages than using the log level convenience
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methods listed above, but this is how to log at custom log levels.
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:func:`getLogger` returns a reference to a logger instance with the specified
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name if it is provided, or ``root`` if not. The names are period-separated
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hierarchical structures. Multiple calls to :func:`getLogger` with the same name
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will return a reference to the same logger object. Loggers that are further
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down in the hierarchical list are children of loggers higher up in the list.
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For example, given a logger with a name of ``foo``, loggers with names of
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``foo.bar``, ``foo.bar.baz``, and ``foo.bam`` are all descendants of ``foo``.
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Loggers have a concept of *effective level*. If a level is not explicitly set
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on a logger, the level of its parent is used instead as its effective level.
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If the parent has no explicit level set, *its* parent is examined, and so on -
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all ancestors are searched until an explicitly set level is found. The root
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logger always has an explicit level set (``WARNING`` by default). When deciding
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whether to process an event, the effective level of the logger is used to
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determine whether the event is passed to the logger's handlers.
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Child loggers propagate messages up to the handlers associated with their
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ancestor loggers. Because of this, it is unnecessary to define and configure
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handlers for all the loggers an application uses. It is sufficient to
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configure handlers for a top-level logger and create child loggers as needed.
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(You can, however, turn off propagation by setting the *propagate*
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attribute of a logger to ``False``.)
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.. _handler-basic:
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Handlers
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^^^^^^^^
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:class:`~logging.Handler` objects are responsible for dispatching the
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appropriate log messages (based on the log messages' severity) to the handler's
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specified destination. :class:`Logger` objects can add zero or more handler
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objects to themselves with an :meth:`~Logger.addHandler` method. As an example
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scenario, an application may want to send all log messages to a log file, all
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log messages of error or higher to stdout, and all messages of critical to an
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email address. This scenario requires three individual handlers where each
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handler is responsible for sending messages of a specific severity to a specific
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location.
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The standard library includes quite a few handler types (see
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:ref:`useful-handlers`); the tutorials use mainly :class:`StreamHandler` and
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:class:`FileHandler` in its examples.
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There are very few methods in a handler for application developers to concern
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themselves with. The only handler methods that seem relevant for application
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developers who are using the built-in handler objects (that is, not creating
|
|
custom handlers) are the following configuration methods:
|
|
|
|
* The :meth:`~Handler.setLevel` method, just as in logger objects, specifies the
|
|
lowest severity that will be dispatched to the appropriate destination. Why
|
|
are there two :func:`setLevel` methods? The level set in the logger
|
|
determines which severity of messages it will pass to its handlers. The level
|
|
set in each handler determines which messages that handler will send on.
|
|
|
|
* :meth:`~Handler.setFormatter` selects a Formatter object for this handler to
|
|
use.
|
|
|
|
* :meth:`~Handler.addFilter` and :meth:`~Handler.removeFilter` respectively
|
|
configure and deconfigure filter objects on handlers.
|
|
|
|
Application code should not directly instantiate and use instances of
|
|
:class:`Handler`. Instead, the :class:`Handler` class is a base class that
|
|
defines the interface that all handlers should have and establishes some
|
|
default behavior that child classes can use (or override).
|
|
|
|
|
|
Formatters
|
|
^^^^^^^^^^
|
|
|
|
Formatter objects configure the final order, structure, and contents of the log
|
|
message. Unlike the base :class:`logging.Handler` class, application code may
|
|
instantiate formatter classes, although you could likely subclass the formatter
|
|
if your application needs special behavior. The constructor takes three
|
|
optional arguments -- a message format string, a date format string and a style
|
|
indicator.
|
|
|
|
.. method:: logging.Formatter.__init__(fmt=None, datefmt=None, style='%')
|
|
|
|
If there is no message format string, the default is to use the
|
|
raw message. If there is no date format string, the default date format is::
|
|
|
|
%Y-%m-%d %H:%M:%S
|
|
|
|
with the milliseconds tacked on at the end. The ``style`` is one of `%`, '{'
|
|
or '$'. If one of these is not specified, then '%' will be used.
|
|
|
|
If the ``style`` is '%', the message format string uses
|
|
``%(<dictionary key>)s`` styled string substitution; the possible keys are
|
|
documented in :ref:`logrecord-attributes`. If the style is '{', the message
|
|
format string is assumed to be compatible with :meth:`str.format` (using
|
|
keyword arguments), while if the style is '$' then the message format string
|
|
should conform to what is expected by :meth:`string.Template.substitute`.
|
|
|
|
.. versionchanged:: 3.2
|
|
Added the ``style`` parameter.
|
|
|
|
The following message format string will log the time in a human-readable
|
|
format, the severity of the message, and the contents of the message, in that
|
|
order::
|
|
|
|
'%(asctime)s - %(levelname)s - %(message)s'
|
|
|
|
Formatters use a user-configurable function to convert the creation time of a
|
|
record to a tuple. By default, :func:`time.localtime` is used; to change this
|
|
for a particular formatter instance, set the ``converter`` attribute of the
|
|
instance to a function with the same signature as :func:`time.localtime` or
|
|
:func:`time.gmtime`. To change it for all formatters, for example if you want
|
|
all logging times to be shown in GMT, set the ``converter`` attribute in the
|
|
Formatter class (to ``time.gmtime`` for GMT display).
|
|
|
|
|
|
Configuring Logging
|
|
^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. currentmodule:: logging.config
|
|
|
|
Programmers can configure logging in three ways:
|
|
|
|
1. Creating loggers, handlers, and formatters explicitly using Python
|
|
code that calls the configuration methods listed above.
|
|
2. Creating a logging config file and reading it using the :func:`fileConfig`
|
|
function.
|
|
3. Creating a dictionary of configuration information and passing it
|
|
to the :func:`dictConfig` function.
|
|
|
|
For the reference documentation on the last two options, see
|
|
:ref:`logging-config-api`. The following example configures a very simple
|
|
logger, a console handler, and a simple formatter using Python code::
|
|
|
|
import logging
|
|
|
|
# create logger
|
|
logger = logging.getLogger('simple_example')
|
|
logger.setLevel(logging.DEBUG)
|
|
|
|
# create console handler and set level to debug
|
|
ch = logging.StreamHandler()
|
|
ch.setLevel(logging.DEBUG)
|
|
|
|
# create formatter
|
|
formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
|
|
|
|
# add formatter to ch
|
|
ch.setFormatter(formatter)
|
|
|
|
# add ch to logger
|
|
logger.addHandler(ch)
|
|
|
|
# 'application' code
|
|
logger.debug('debug message')
|
|
logger.info('info message')
|
|
logger.warn('warn message')
|
|
logger.error('error message')
|
|
logger.critical('critical message')
|
|
|
|
Running this module from the command line produces the following output:
|
|
|
|
.. code-block:: shell-session
|
|
|
|
$ python simple_logging_module.py
|
|
2005-03-19 15:10:26,618 - simple_example - DEBUG - debug message
|
|
2005-03-19 15:10:26,620 - simple_example - INFO - info message
|
|
2005-03-19 15:10:26,695 - simple_example - WARNING - warn message
|
|
2005-03-19 15:10:26,697 - simple_example - ERROR - error message
|
|
2005-03-19 15:10:26,773 - simple_example - CRITICAL - critical message
|
|
|
|
The following Python module creates a logger, handler, and formatter nearly
|
|
identical to those in the example listed above, with the only difference being
|
|
the names of the objects::
|
|
|
|
import logging
|
|
import logging.config
|
|
|
|
logging.config.fileConfig('logging.conf')
|
|
|
|
# create logger
|
|
logger = logging.getLogger('simpleExample')
|
|
|
|
# 'application' code
|
|
logger.debug('debug message')
|
|
logger.info('info message')
|
|
logger.warn('warn message')
|
|
logger.error('error message')
|
|
logger.critical('critical message')
|
|
|
|
Here is the logging.conf file::
|
|
|
|
[loggers]
|
|
keys=root,simpleExample
|
|
|
|
[handlers]
|
|
keys=consoleHandler
|
|
|
|
[formatters]
|
|
keys=simpleFormatter
|
|
|
|
[logger_root]
|
|
level=DEBUG
|
|
handlers=consoleHandler
|
|
|
|
[logger_simpleExample]
|
|
level=DEBUG
|
|
handlers=consoleHandler
|
|
qualname=simpleExample
|
|
propagate=0
|
|
|
|
[handler_consoleHandler]
|
|
class=StreamHandler
|
|
level=DEBUG
|
|
formatter=simpleFormatter
|
|
args=(sys.stdout,)
|
|
|
|
[formatter_simpleFormatter]
|
|
format=%(asctime)s - %(name)s - %(levelname)s - %(message)s
|
|
datefmt=
|
|
|
|
The output is nearly identical to that of the non-config-file-based example:
|
|
|
|
.. code-block:: shell-session
|
|
|
|
$ python simple_logging_config.py
|
|
2005-03-19 15:38:55,977 - simpleExample - DEBUG - debug message
|
|
2005-03-19 15:38:55,979 - simpleExample - INFO - info message
|
|
2005-03-19 15:38:56,054 - simpleExample - WARNING - warn message
|
|
2005-03-19 15:38:56,055 - simpleExample - ERROR - error message
|
|
2005-03-19 15:38:56,130 - simpleExample - CRITICAL - critical message
|
|
|
|
You can see that the config file approach has a few advantages over the Python
|
|
code approach, mainly separation of configuration and code and the ability of
|
|
noncoders to easily modify the logging properties.
|
|
|
|
.. warning:: The :func:`fileConfig` function takes a default parameter,
|
|
``disable_existing_loggers``, which defaults to ``True`` for reasons of
|
|
backward compatibility. This may or may not be what you want, since it
|
|
will cause any loggers existing before the :func:`fileConfig` call to
|
|
be disabled unless they (or an ancestor) are explicitly named in the
|
|
configuration. Please refer to the reference documentation for more
|
|
information, and specify ``False`` for this parameter if you wish.
|
|
|
|
The dictionary passed to :func:`dictConfig` can also specify a Boolean
|
|
value with key ``disable_existing_loggers``, which if not specified
|
|
explicitly in the dictionary also defaults to being interpreted as
|
|
``True``. This leads to the logger-disabling behaviour described above,
|
|
which may not be what you want - in which case, provide the key
|
|
explicitly with a value of ``False``.
|
|
|
|
|
|
.. currentmodule:: logging
|
|
|
|
Note that the class names referenced in config files need to be either relative
|
|
to the logging module, or absolute values which can be resolved using normal
|
|
import mechanisms. Thus, you could use either
|
|
:class:`~logging.handlers.WatchedFileHandler` (relative to the logging module) or
|
|
``mypackage.mymodule.MyHandler`` (for a class defined in package ``mypackage``
|
|
and module ``mymodule``, where ``mypackage`` is available on the Python import
|
|
path).
|
|
|
|
In Python 3.2, a new means of configuring logging has been introduced, using
|
|
dictionaries to hold configuration information. This provides a superset of the
|
|
functionality of the config-file-based approach outlined above, and is the
|
|
recommended configuration method for new applications and deployments. Because
|
|
a Python dictionary is used to hold configuration information, and since you
|
|
can populate that dictionary using different means, you have more options for
|
|
configuration. For example, you can use a configuration file in JSON format,
|
|
or, if you have access to YAML processing functionality, a file in YAML
|
|
format, to populate the configuration dictionary. Or, of course, you can
|
|
construct the dictionary in Python code, receive it in pickled form over a
|
|
socket, or use whatever approach makes sense for your application.
|
|
|
|
Here's an example of the same configuration as above, in YAML format for
|
|
the new dictionary-based approach::
|
|
|
|
version: 1
|
|
formatters:
|
|
simple:
|
|
format: '%(asctime)s - %(name)s - %(levelname)s - %(message)s'
|
|
handlers:
|
|
console:
|
|
class: logging.StreamHandler
|
|
level: DEBUG
|
|
formatter: simple
|
|
stream: ext://sys.stdout
|
|
loggers:
|
|
simpleExample:
|
|
level: DEBUG
|
|
handlers: [console]
|
|
propagate: no
|
|
root:
|
|
level: DEBUG
|
|
handlers: [console]
|
|
|
|
For more information about logging using a dictionary, see
|
|
:ref:`logging-config-api`.
|
|
|
|
What happens if no configuration is provided
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
If no logging configuration is provided, it is possible to have a situation
|
|
where a logging event needs to be output, but no handlers can be found to
|
|
output the event. The behaviour of the logging package in these
|
|
circumstances is dependent on the Python version.
|
|
|
|
For versions of Python prior to 3.2, the behaviour is as follows:
|
|
|
|
* If *logging.raiseExceptions* is ``False`` (production mode), the event is
|
|
silently dropped.
|
|
|
|
* If *logging.raiseExceptions* is ``True`` (development mode), a message
|
|
'No handlers could be found for logger X.Y.Z' is printed once.
|
|
|
|
In Python 3.2 and later, the behaviour is as follows:
|
|
|
|
* The event is output using a 'handler of last resort', stored in
|
|
``logging.lastResort``. This internal handler is not associated with any
|
|
logger, and acts like a :class:`~logging.StreamHandler` which writes the
|
|
event description message to the current value of ``sys.stderr`` (therefore
|
|
respecting any redirections which may be in effect). No formatting is
|
|
done on the message - just the bare event description message is printed.
|
|
The handler's level is set to ``WARNING``, so all events at this and
|
|
greater severities will be output.
|
|
|
|
To obtain the pre-3.2 behaviour, ``logging.lastResort`` can be set to ``None``.
|
|
|
|
.. _library-config:
|
|
|
|
Configuring Logging for a Library
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
When developing a library which uses logging, you should take care to
|
|
document how the library uses logging - for example, the names of loggers
|
|
used. Some consideration also needs to be given to its logging configuration.
|
|
If the using application does not use logging, and library code makes logging
|
|
calls, then (as described in the previous section) events of severity
|
|
``WARNING`` and greater will be printed to ``sys.stderr``. This is regarded as
|
|
the best default behaviour.
|
|
|
|
If for some reason you *don't* want these messages printed in the absence of
|
|
any logging configuration, you can attach a do-nothing handler to the top-level
|
|
logger for your library. This avoids the message being printed, since a handler
|
|
will be always be found for the library's events: it just doesn't produce any
|
|
output. If the library user configures logging for application use, presumably
|
|
that configuration will add some handlers, and if levels are suitably
|
|
configured then logging calls made in library code will send output to those
|
|
handlers, as normal.
|
|
|
|
A do-nothing handler is included in the logging package:
|
|
:class:`~logging.NullHandler` (since Python 3.1). An instance of this handler
|
|
could be added to the top-level logger of the logging namespace used by the
|
|
library (*if* you want to prevent your library's logged events being output to
|
|
``sys.stderr`` in the absence of logging configuration). If all logging by a
|
|
library *foo* is done using loggers with names matching 'foo.x', 'foo.x.y',
|
|
etc. then the code::
|
|
|
|
import logging
|
|
logging.getLogger('foo').addHandler(logging.NullHandler())
|
|
|
|
should have the desired effect. If an organisation produces a number of
|
|
libraries, then the logger name specified can be 'orgname.foo' rather than
|
|
just 'foo'.
|
|
|
|
.. note:: It is strongly advised that you *do not add any handlers other
|
|
than* :class:`~logging.NullHandler` *to your library's loggers*. This is
|
|
because the configuration of handlers is the prerogative of the application
|
|
developer who uses your library. The application developer knows their
|
|
target audience and what handlers are most appropriate for their
|
|
application: if you add handlers 'under the hood', you might well interfere
|
|
with their ability to carry out unit tests and deliver logs which suit their
|
|
requirements.
|
|
|
|
|
|
Logging Levels
|
|
--------------
|
|
|
|
The numeric values of logging levels are given in the following table. These are
|
|
primarily of interest if you want to define your own levels, and need them to
|
|
have specific values relative to the predefined levels. If you define a level
|
|
with the same numeric value, it overwrites the predefined value; the predefined
|
|
name is lost.
|
|
|
|
+--------------+---------------+
|
|
| Level | Numeric value |
|
|
+==============+===============+
|
|
| ``CRITICAL`` | 50 |
|
|
+--------------+---------------+
|
|
| ``ERROR`` | 40 |
|
|
+--------------+---------------+
|
|
| ``WARNING`` | 30 |
|
|
+--------------+---------------+
|
|
| ``INFO`` | 20 |
|
|
+--------------+---------------+
|
|
| ``DEBUG`` | 10 |
|
|
+--------------+---------------+
|
|
| ``NOTSET`` | 0 |
|
|
+--------------+---------------+
|
|
|
|
Levels can also be associated with loggers, being set either by the developer or
|
|
through loading a saved logging configuration. When a logging method is called
|
|
on a logger, the logger compares its own level with the level associated with
|
|
the method call. If the logger's level is higher than the method call's, no
|
|
logging message is actually generated. This is the basic mechanism controlling
|
|
the verbosity of logging output.
|
|
|
|
Logging messages are encoded as instances of the :class:`~logging.LogRecord`
|
|
class. When a logger decides to actually log an event, a
|
|
:class:`~logging.LogRecord` instance is created from the logging message.
|
|
|
|
Logging messages are subjected to a dispatch mechanism through the use of
|
|
:dfn:`handlers`, which are instances of subclasses of the :class:`Handler`
|
|
class. Handlers are responsible for ensuring that a logged message (in the form
|
|
of a :class:`LogRecord`) ends up in a particular location (or set of locations)
|
|
which is useful for the target audience for that message (such as end users,
|
|
support desk staff, system administrators, developers). Handlers are passed
|
|
:class:`LogRecord` instances intended for particular destinations. Each logger
|
|
can have zero, one or more handlers associated with it (via the
|
|
:meth:`~Logger.addHandler` method of :class:`Logger`). In addition to any
|
|
handlers directly associated with a logger, *all handlers associated with all
|
|
ancestors of the logger* are called to dispatch the message (unless the
|
|
*propagate* flag for a logger is set to a false value, at which point the
|
|
passing to ancestor handlers stops).
|
|
|
|
Just as for loggers, handlers can have levels associated with them. A handler's
|
|
level acts as a filter in the same way as a logger's level does. If a handler
|
|
decides to actually dispatch an event, the :meth:`~Handler.emit` method is used
|
|
to send the message to its destination. Most user-defined subclasses of
|
|
:class:`Handler` will need to override this :meth:`~Handler.emit`.
|
|
|
|
.. _custom-levels:
|
|
|
|
Custom Levels
|
|
^^^^^^^^^^^^^
|
|
|
|
Defining your own levels is possible, but should not be necessary, as the
|
|
existing levels have been chosen on the basis of practical experience.
|
|
However, if you are convinced that you need custom levels, great care should
|
|
be exercised when doing this, and it is possibly *a very bad idea to define
|
|
custom levels if you are developing a library*. That's because if multiple
|
|
library authors all define their own custom levels, there is a chance that
|
|
the logging output from such multiple libraries used together will be
|
|
difficult for the using developer to control and/or interpret, because a
|
|
given numeric value might mean different things for different libraries.
|
|
|
|
.. _useful-handlers:
|
|
|
|
Useful Handlers
|
|
---------------
|
|
|
|
In addition to the base :class:`Handler` class, many useful subclasses are
|
|
provided:
|
|
|
|
#. :class:`StreamHandler` instances send messages to streams (file-like
|
|
objects).
|
|
|
|
#. :class:`FileHandler` instances send messages to disk files.
|
|
|
|
#. :class:`~handlers.BaseRotatingHandler` is the base class for handlers that
|
|
rotate log files at a certain point. It is not meant to be instantiated
|
|
directly. Instead, use :class:`~handlers.RotatingFileHandler` or
|
|
:class:`~handlers.TimedRotatingFileHandler`.
|
|
|
|
#. :class:`~handlers.RotatingFileHandler` instances send messages to disk
|
|
files, with support for maximum log file sizes and log file rotation.
|
|
|
|
#. :class:`~handlers.TimedRotatingFileHandler` instances send messages to
|
|
disk files, rotating the log file at certain timed intervals.
|
|
|
|
#. :class:`~handlers.SocketHandler` instances send messages to TCP/IP
|
|
sockets. Since 3.4, Unix domain sockets are also supported.
|
|
|
|
#. :class:`~handlers.DatagramHandler` instances send messages to UDP
|
|
sockets. Since 3.4, Unix domain sockets are also supported.
|
|
|
|
#. :class:`~handlers.SMTPHandler` instances send messages to a designated
|
|
email address.
|
|
|
|
#. :class:`~handlers.SysLogHandler` instances send messages to a Unix
|
|
syslog daemon, possibly on a remote machine.
|
|
|
|
#. :class:`~handlers.NTEventLogHandler` instances send messages to a
|
|
Windows NT/2000/XP event log.
|
|
|
|
#. :class:`~handlers.MemoryHandler` instances send messages to a buffer
|
|
in memory, which is flushed whenever specific criteria are met.
|
|
|
|
#. :class:`~handlers.HTTPHandler` instances send messages to an HTTP
|
|
server using either ``GET`` or ``POST`` semantics.
|
|
|
|
#. :class:`~handlers.WatchedFileHandler` instances watch the file they are
|
|
logging to. If the file changes, it is closed and reopened using the file
|
|
name. This handler is only useful on Unix-like systems; Windows does not
|
|
support the underlying mechanism used.
|
|
|
|
#. :class:`~handlers.QueueHandler` instances send messages to a queue, such as
|
|
those implemented in the :mod:`queue` or :mod:`multiprocessing` modules.
|
|
|
|
#. :class:`NullHandler` instances do nothing with error messages. They are used
|
|
by library developers who want to use logging, but want to avoid the 'No
|
|
handlers could be found for logger XXX' message which can be displayed if
|
|
the library user has not configured logging. See :ref:`library-config` for
|
|
more information.
|
|
|
|
.. versionadded:: 3.1
|
|
The :class:`NullHandler` class.
|
|
|
|
.. versionadded:: 3.2
|
|
The :class:`~handlers.QueueHandler` class.
|
|
|
|
The :class:`NullHandler`, :class:`StreamHandler` and :class:`FileHandler`
|
|
classes are defined in the core logging package. The other handlers are
|
|
defined in a sub- module, :mod:`logging.handlers`. (There is also another
|
|
sub-module, :mod:`logging.config`, for configuration functionality.)
|
|
|
|
Logged messages are formatted for presentation through instances of the
|
|
:class:`Formatter` class. They are initialized with a format string suitable for
|
|
use with the % operator and a dictionary.
|
|
|
|
For formatting multiple messages in a batch, instances of
|
|
:class:`~handlers.BufferingFormatter` can be used. In addition to the format
|
|
string (which is applied to each message in the batch), there is provision for
|
|
header and trailer format strings.
|
|
|
|
When filtering based on logger level and/or handler level is not enough,
|
|
instances of :class:`Filter` can be added to both :class:`Logger` and
|
|
:class:`Handler` instances (through their :meth:`~Handler.addFilter` method).
|
|
Before deciding to process a message further, both loggers and handlers consult
|
|
all their filters for permission. If any filter returns a false value, the
|
|
message is not processed further.
|
|
|
|
The basic :class:`Filter` functionality allows filtering by specific logger
|
|
name. If this feature is used, messages sent to the named logger and its
|
|
children are allowed through the filter, and all others dropped.
|
|
|
|
|
|
.. _logging-exceptions:
|
|
|
|
Exceptions raised during logging
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--------------------------------
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The logging package is designed to swallow exceptions which occur while logging
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in production. This is so that errors which occur while handling logging events
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- such as logging misconfiguration, network or other similar errors - do not
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cause the application using logging to terminate prematurely.
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:class:`SystemExit` and :class:`KeyboardInterrupt` exceptions are never
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swallowed. Other exceptions which occur during the :meth:`~Handler.emit` method
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of a :class:`Handler` subclass are passed to its :meth:`~Handler.handleError`
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method.
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The default implementation of :meth:`~Handler.handleError` in :class:`Handler`
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checks to see if a module-level variable, :data:`raiseExceptions`, is set. If
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set, a traceback is printed to :data:`sys.stderr`. If not set, the exception is
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swallowed.
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.. note:: The default value of :data:`raiseExceptions` is ``True``. This is
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because during development, you typically want to be notified of any
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exceptions that occur. It's advised that you set :data:`raiseExceptions` to
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``False`` for production usage.
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.. currentmodule:: logging
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.. _arbitrary-object-messages:
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Using arbitrary objects as messages
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-----------------------------------
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In the preceding sections and examples, it has been assumed that the message
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passed when logging the event is a string. However, this is not the only
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possibility. You can pass an arbitrary object as a message, and its
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:meth:`~object.__str__` method will be called when the logging system needs to
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convert it to a string representation. In fact, if you want to, you can avoid
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computing a string representation altogether - for example, the
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:class:`~handlers.SocketHandler` emits an event by pickling it and sending it
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over the wire.
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Optimization
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------------
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Formatting of message arguments is deferred until it cannot be avoided.
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However, computing the arguments passed to the logging method can also be
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expensive, and you may want to avoid doing it if the logger will just throw
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away your event. To decide what to do, you can call the
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:meth:`~Logger.isEnabledFor` method which takes a level argument and returns
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true if the event would be created by the Logger for that level of call.
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You can write code like this::
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if logger.isEnabledFor(logging.DEBUG):
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logger.debug('Message with %s, %s', expensive_func1(),
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expensive_func2())
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so that if the logger's threshold is set above ``DEBUG``, the calls to
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:func:`expensive_func1` and :func:`expensive_func2` are never made.
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.. note:: In some cases, :meth:`~Logger.isEnabledFor` can itself be more
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expensive than you'd like (e.g. for deeply nested loggers where an explicit
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level is only set high up in the logger hierarchy). In such cases (or if you
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want to avoid calling a method in tight loops), you can cache the result of a
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call to :meth:`~Logger.isEnabledFor` in a local or instance variable, and use
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that instead of calling the method each time. Such a cached value would only
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need to be recomputed when the logging configuration changes dynamically
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while the application is running (which is not all that common).
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There are other optimizations which can be made for specific applications which
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need more precise control over what logging information is collected. Here's a
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list of things you can do to avoid processing during logging which you don't
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need:
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+-----------------------------------------------+----------------------------------------+
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| What you don't want to collect | How to avoid collecting it |
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+===============================================+========================================+
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| Information about where calls were made from. | Set ``logging._srcfile`` to ``None``. |
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| | This avoids calling |
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| | :func:`sys._getframe`, which may help |
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| | to speed up your code in environments |
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| | like PyPy (which can't speed up code |
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| | that uses :func:`sys._getframe`), if |
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| | and when PyPy supports Python 3.x. |
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+-----------------------------------------------+----------------------------------------+
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| Threading information. | Set ``logging.logThreads`` to ``0``. |
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+-----------------------------------------------+----------------------------------------+
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| Process information. | Set ``logging.logProcesses`` to ``0``. |
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+-----------------------------------------------+----------------------------------------+
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Also note that the core logging module only includes the basic handlers. If
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you don't import :mod:`logging.handlers` and :mod:`logging.config`, they won't
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take up any memory.
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.. seealso::
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Module :mod:`logging`
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API reference for the logging module.
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Module :mod:`logging.config`
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Configuration API for the logging module.
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Module :mod:`logging.handlers`
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Useful handlers included with the logging module.
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:ref:`A logging cookbook <logging-cookbook>`
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